Category Archives: Space Science

Gas giants Saturn, Jupiter, et al, Space Science

Cassini: Propellers in Saturn’s rings and a hexagon on its north pole

The Cassini spacecraft returns more amazing pictures of the Saturn system:

Cassini Targets a Propeller in Saturn’s A Ring 

NASA’s Cassini spacecraft captured these remarkable views of a propeller feature in Saturn’s A ring on Feb. 21, 2017. These are the sharpest images taken of a propeller so far, and show an unprecedented level of detail. The propeller is nicknamed “Santos-Dumont,” after the pioneering Brazilian-French aviator.

This observation was Cassini’s first targeted flyby of a propeller. The views show the object from vantage points on opposite sides of the rings. The top image looks toward the rings’ sunlit side, while the bottom image shows the unilluminated side, where sunlight filters through the backlit ring.

The two images presented as figure A are reprojected at the same scale (0.13 mile or 207 meters per pixel) in order to facilitate comparison. The original images, which have slightly different scales, are also provided here, without reprojection, as figure B; the sunlit-side image is at left, while the unlit-side image is at right.

The original images, which have slightly different scales, are seen here without reproduction; the sunlit-side image is at left, while the unlit-side image is at right. › Full image

Cassini scientists have been tracking the orbit of this object for the past decade, tracing the effect that the ring has upon it. Now, as Cassini has moved in close to the ring as part of its ring-grazing orbits, it was able to obtain this extreme close-up view of the propeller, enabling researchers to examine its effects on the ring. These views, and others like them, will inform models and studies in new ways going forward.

Like a frosted window, Saturn’s rings look different depending on whether they are seen fully sunlit or backlit. On the lit side, the rings look darker where there is less material to reflect sunlight. On the unlit side, some regions look darker because there is less material, but other regions look dark because there is so much material that the ring becomes opaque.

Observing the same propeller on both the lit and unlit sides allows scientists to gather richer information about how the moonlet affects the ring. For example, in the unlit-side view, the broad, dark band through the middle of the propeller seems to be a combination of both empty and opaque regions.

The propeller’s central moonlet would only be a couple of pixels across in these images, and may not actually be resolved here. The lit-side image shows that a bright, narrow band of material connects the moonlet directly to the larger ring, in agreement with dynamical models. That same thin band of material may also be obscuring the moonlet from view.

Lengthwise along the propeller is a gap in the ring that the moonlet has pried open. The gap appears dark on both the lit and unlit sides. Flanking the gap near the moonlet are regions of enhanced density, which appear bright on the lit side and more mottled on the unlit side.

One benefit of the high resolution of these images is that, for the first time, wavy edges are clearly visible in the gap. These waves are also expected from dynamical models, and they emphasize that the gap must be sharp-edged. Furthermore, the distance between the wave crests tells scientists the width of the gap (1.2 miles or 2 kilometers), which in turn reveals the mass of the central moonlet. From these measurements, Cassini imaging scientists deduce that the moonlet’s mass is comparable to that of a snowball about 0.6 mile (1 kilometer) wide.

For the original images (figure B), the lit-side image has a scale of 0.33 mile (530 meters) per pixel in the radial (or outward from Saturn) direction and 0.44 mile (710 meters) per pixel in the azimuthal (or around Saturn) direction. The different scales are the result of Cassini’s vantage point being off to the side of the propeller, rather than directly above it. The unlit-side image has a scale of 0.25 (410 meters) per pixel in both directions.

In order to preserve its original level of detail, the image has not been cleaned of bright blemishes due to cosmic rays and to charged particle radiation from Saturn.

The Cassini mission is a cooperative project of NASA, ESA (the European Space Agency) and the Italian Space Agency. The Jet Propulsion Laboratory, a division of the California Institute of Technology in Pasadena, manages the mission for NASA’s Science Mission Directorate, Washington. The Cassini orbiter and its two onboard cameras were designed, developed and assembled at JPL. The imaging operations center is based at the Space Science Institute in Boulder, Colorado.

For more information about the Cassini-Huygens mission visit saturn.jpl.nasa.gov and www.nasa.gov/cassini. The Cassini imaging team homepage is at ciclops.org.

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At the Center 

Saturn’s North Pole

The north pole of Saturn sits at the center of its own domain. Around it swirl the clouds, driven by the fast winds of Saturn. Beyond that orbits Saturn’s retinue of moons and the countless small particles that form the ring.

Although the poles of Saturn are at the center of all of this motion, not everything travels around them in circles. Some of the jet-stream patterns, such as the hexagon-shaped pattern seen here, have wavy, uneven shapes. The moons as well have orbits that are elliptical, some quite far from circular.

This view looks toward the sunlit side of the rings from about 26 degrees above the ring plane. The image was taken with the Cassini spacecraft wide-angle camera on Dec. 2, 2016 using a spectral filter which preferentially admits wavelengths of near-infrared light centered at 890 nanometers.

The view was acquired at a distance of approximately 619,000 miles (996,000 kilometers) from Saturn. Image scale is 37 miles (60 kilometers) per pixel.

The Cassini mission is a cooperative project of NASA, ESA (the European Space Agency) and the Italian Space Agency. The Jet Propulsion Laboratory, a division of the California Institute of Technology in Pasadena, manages the mission for NASA’s Science Mission Directorate, Washington. The Cassini orbiter and its two onboard cameras were designed, developed and assembled at JPL. The imaging operations center is based at the Space Science Institute in Boulder, Colorado.

For more information about the Cassini-Huygens mission visit saturn.jpl.nasa.gov and www.nasa.gov/cassini. The Cassini imaging team homepage is at ciclops.org.

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Mars, Multiple media, Space Science

Video: Curiosity rover captures Dust Devils in action

The winds on Mars may never be as forceful as depicted in The Martian but they can certainly pick up dust and move it across the ground as seen in these video clips of Dust Devils: Martian Winds Carve Mountains, Move Dust, Raise Dust – NASA JPL

On recent summer afternoons on Mars, navigation cameras aboard NASA’s Curiosity Mars rover observed several whirlwinds carrying Martian dust across Gale Crater. Dust devils result from sunshine warming the ground, prompting convective rising of air. All the dust devils were seen in a southward direction from the rover. Timing is accelerated and contrast has been modified to make frame-to-frame changes easier to see.

For more information, read the full article at https://www.jpl.nasa.gov/news/news.ph…

Activism, Space Science, SpaceCasts

Video: The Planetary Post with Robert Picardo – “Griffith Observatory with Tim Russ”

Here is the latest of the Planetary Society‘s series The Planetary Post with Robert Picardo:

Star parties are magical events where one can observe the wonders of our night sky…and have a surprise Star Trek: Voyager reunion. Also, news about seven Earth-sized planets orbiting a red dwarf star, plus learn how you can help prevent an asteroid impact disaster.

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And here is the latest episode of Planetary Radio: Planetary Radio Live: Near Earth Objects—The Killer Asteroid Threat | The Planetary Society

Leaders of the quest to find, understand and protect ourselves from the asteroids and comets called Near Earth Objects gathered with host Mat Kaplan for a live conversation about this existential threat from space. This special episode presents excerpts of that lively discussion with JPL Senior Research Scientist Amy Mainzer, Manager of NASA/JPL’s Center for Near Earth Object Studies Paul Chodas, and NASA’s Planetary Defense Officer Lindley Johnson. Also on stage was Planetary Society Director of Science and Technology Bruce Betts. Bruce stayed for this week’s What’s Up segment.

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Education, Space participation, Space Science

SpaceX Dragon berths to ISS. Cargo includes over 20 student experiments

The SpaceX Dragon cargo spacecraft, launched last Sunday from the Kennedy Space Center, berthed today to the International Space Station. Astronauts on the station reached out with a robotic arm, snagged the Dragon, and then attached the craft to the station:

The Dragon carries over 5,000 pounds (2300 kg) of supplies, hardware, and research materials, including 21 experiments from students in grade school through high school who are participating in the Student Spaceflight Experiments Program (SSEP) . This is the 9th SSEP mission to the ISS:

SSEP is a partnership of the National Center for Earth and Space Science Education (NCESSE) and NanoRacks, LLC, a company that provides standardized experimental platforms on the ISS and also deploys small satellites into orbit from the station.

NanoRacks also co-sponsors DreamUp, a program to help young people crowd-fund, build, and launch experiments into space. The Dragon cargo included a DreamUp project: Another big DreamUp launch on SpaceX-10! — DreamUp

This was a really exciting launch for the team at DreamUp as we had the fantastic V3PO students fly all the way from Germany to join us for the launch. These students crowd-funded their plant-growth research project and got some great advisors on board, including Airbus and BASF Crop Protection. With the team put together, the students commenced their vegetative plant propagation.

Learn more about the plant growth experiment here.

All together, DreamUp was able to bring over 55 student researchers and advisors to this launch. We really saw our students’ perseverance when on the first planned launch date…the launch was scrubbed with just 13 seconds to go! They held on to all of their excitement and brought it to the launch the following day, with big smiles and loud cheers as they saw the rocket go up, holding on tight to their experiments.

The V3PO team receiving their DreamUp Wings certificates with the view of the Vehicle Assembly Building (VAB) in the background. Photo credits DreamUp

DreamUp plans for more student experiments going to space in the year ahead: DreamUp Launches in 2017! — DreamUp

Last year alone, we launched over 60 educational payloads to space on five different rockets, designed by student researchers from 7 different countries. We’ve also grown our myLAUNCH and DreamUp graduation programs – offering 50 students a once-in-a-lifetime opportunity to attend a rocket launch and honoring over 100 DreamUp graduates with certificates to celebrate their incredible achievements and welcome them to our growing alumni community. 

Part of DreamUp’s core mission is to immerse students and educators at every level of education in the wonder of outer space through engaging programs that highlight the multifaceted applications of STEM skills and the growing opportunities in the global space industry.  In 2016, we produced and released our first-ever, completely free, curriculum for educators.  Located on our website, the “Eye in the Sky” curriculum was developed in partnership with Jenny Pieratt at CraftED and incorporates space-based data and images to help students determine whether the Earth is a just planet.  All are welcome to download and use this Next Generation Science Standard-compliant resource at no cost, but if you do, please send us feedback so we can incorporate your thoughts in our next curriculum release!

Looking ahead, we foresee a very active 2017. As we implement the first-ever DreamUp Challenge, realize partnership agreements with some of the largest school districts in the country, and invite more and more student researchers to experience the wonder of rocket launches, DreamUp will continue to improve our services as the leading provider for experiential learning in space. 

Europa, Titan, & other deep space sites, Gas giants Saturn, Jupiter, et al, Space Science

Cassini: Magnetic anomaly leads to an ocean world circling Saturn

Saturn’s little moon Enceladus has turned out to be one of the most interesting objects in the solar system:

Cassini: Mission to Saturn: An Ice World…With an Ocean?
How a puzzling sensor reading transformed NASA’s
Cassini Saturn mission and created a new target in the search
for habitable worlds beyond Earth.

On Feb. 17, 2005, NASA’s Cassini spacecraft was making the first-ever close pass over Saturn’s moon Enceladus as it worked through its detailed survey of the planet’s icy satellites. Exciting, to be sure, just for the thrill of exploration. But then Cassini’s magnetometer instrument noticed something odd.

Since NASA’s two Voyager spacecraft made their distant flybys of Enceladus about 20 years prior, scientists had anticipated the little moon would be an interesting place to visit with Cassini. Enceladus is bright white — the most reflective object in the solar system, in fact — and it orbits in the middle of a faint ring of dust-sized ice particles known as Saturn’s E ring. Scientists speculated ice dust was being kicked off its surface somehow. But they presumed it would be, essentially, a dead, airless ball of ice.

What Cassini saw didn’t look like a frozen, airless body. Instead, it looked something like a comet that was actively emitting gas. The magnetometer detected that Saturn’s magnetic field, which envelops Enceladus, was perturbed above the moon’s south pole in a way that didn’t make sense for an inactive world. Could it be that the moon was actively replenishing gases it was breathing into space?

Thus began a hunt for clues that has turned out to be Cassini’s most riveting detective story.

“Enceladus was so exciting that, instead of just three close flybys planned for our four-year primary mission, we added 20 more, including seven that went right through the geysers at the south pole,” said Linda Spilker, Cassini project scientist at NASA’s Jet Propulsion Laboratory, Pasadena, California.

By following the trail of scientific breadcrumbs, Cassini eventually found that Enceladus harbors a global ocean of salty water under its icy crust, possibly with hydrothermal vents on its seafloor. The trail of clues that began with a puzzling magnetometer reading led to an understanding that the moon — and perhaps many small, icy moons like it throughout the cosmos — could potentially have the ingredients needed for life.

“Half the excitement of doing science is that you sometimes find yourself going in a totally different direction than you expected, which can lead to amazing discoveries,” said Spilker. “That little anomaly in Cassini’s magnetometer signal was unusual enough that it eventually led us to an ocean world.”

For a timeline of Cassini’s Enceladus discoveries, visit: http://go.nasa.gov/2k0CRP3

Launched in 1997, the Cassini mission is currently in its final year of operations, performing weekly ring-grazing dives just past the outer edge of Saturn’s rings. In April, the spacecraft will begin its Grand Finale, plunging through the gap between the rings and the planet itself, leading up to a final plunge into Saturn on September 15.

Illustration showing the bending of Saturn’s magnetic field near Enceladus that was detected by Cassini’s magnetometer. Credit: NASA/JPL-Caltech > Full image and caption

Cassini has been touring the Saturn system since arriving in 2004 for an up-close study of the planet, its rings and moons, and its vast magnetosphere. Cassini has made numerous dramatic discoveries, besides the activity at Enceladus, including liquid methane seas on another moon, Titan.

The Cassini-Huygens mission is a cooperative project of NASA, ESA (European Space Agency) and the Italian Space Agency. NASA’s Jet Propulsion Laboratory, a division of Caltech in Pasadena, California, manages the mission for NASA’s Science Mission Directorate, Washington. JPL designed, developed and assembled the Cassini orbiter.

More information about Cassini: